Héméra is a INRIA large scale initiative , started in 2010, that aims at demonstrating ambitious up-scaling techniques for large scale distributed computing by carrying out several dimensioning experiments on the Grid’5000 infrastructure, at animating the scientific community around Grid’5000 and at enlarging the Grid’5000 community by helping newcomers to make use of Grid’5000. It is not restricted to INRIA teams.
- 2012, May 9-11: E2DC Ghislain Landry Tsafack (Hemera Phd student between INRIA RESO (Lyon) and IRIT (Toulouse)) will present his research activities on "DNA-inspired Scheme for Building the Energy Profile of HPC Systems" in the 1st International Workshop on Energy-Efficient Data Centres
- 2012, January 19-20: Green Days@Lyon (Slides of the presentation available)
- 2011, November 18: Support for Experimental Computer Science Workshop, SC'11, Seattle.
- 2011, November 14-18, Ghislain Landry Tsafack (Hemera Phd student between INRIA RESO (Lyon) and IRIT (Toulouse)) has received a student volunteer grant and will be present in the Supercomputing 2011 event in Seattle, USA
- 2011, October 7, Présentation of Héméra at the INRA-INRIA day on large scale data management and high performance computing
- 2011, July 7: Zenith joins Hemera.
- 2011, May 31-June 1: Green Days@Paris.
- 2011, April 20: BOF of the WG Methodology at the Grid'5000 school.
- 2011, April 19: Hemera presentation at the Grid'5000 school.
- 2011, April 18-21: Hemera co-organized the Grid'5000 School 2011 at Reims.
- 2011, April 6th: Presentation of Hemera at the INRIA Research Grid Day.
- 2011, April 1st: Creation of a new scientific challenge: Orchestrating Experiments on the gLite Production Grid Middleware.
- 2010 October 5th: The kickoff meeting was hold in Paris.
Scientific challenges concentrate effort of some partners on well defined issues, such as a particular experiment on Grid’5000. Scientific challenges are expected to be bound in time. However, a scientific challenge may contain several sub-challenges, typically representing various steps toward the ultimate challenges.
The current list of scientific challenges with their leaders and organized by theme is:
- Traffic Awareness -- Paulo Gonçalves (RESO), K. Avrachenkov (MAESTRO)
- Energy Profiling of Large Scale Applications -- Laurent Lefèvre (RESO), Jean-Marc Pierson (IRIT), Jean-Marc Menaud (ASCOLA)
- Robustness of Large Systems in Presence of High Churn -- Pierre Sens (REGAL), Jean-Marc Vincent (MESCAL)
- Orchestrating Experiments on the gLite Production Grid Middleware -- Lucas Nussbaum (ALGORILLE), Frédéric Suter (CC IN2P3).
- Programming Paradigm
- Large Scale Computing for Combinatorial Optimization Problems -- Bilel Derbel (DOLPHIN), Nouredine Melab (DOLPHIN)
- Scalable Distributed Processing Using the MapReduce Paradigm -- Gabriel Antoniu (KERDATA), Gilles Fedak (GRAAL)
- Domain Specific
- Multi-parametric Intensive Stochastic Simulations for Hydrogeology -- Jocelyne Erhel (SAGE)
- Thinking GRID for Electromagnetic Simulation of Oversized Structures -- Hervé Aubert (MINC-LAAS), Thierry Monteil (MRS-LAAS), Patricia Stolf (ASTRE-IRIT)
Matrix of participation in scientific challenges.
Working groups aims to animate a part of the community around scientific themes
The current list of working groups with their leaders is:
- Transparent, safe and efficient large scale computing -- Stéphane Genaud (ICPS), Fabrice Huet (OASIS)
- Energy Efficient Large Scale Experimental Distributed Systems -- Laurent Lefèvre (RESO), Jean-Marc Menaud (ASCOLA)
- Bring Grids Power to Internet-Users thanks to Virtualization Technologies -- Adrien Lèbre (ASCOLA), Yvon Jégou (MYRIADS)
- Efficient exploitation of highly heterogeneous and hierarchical large-scale systems Olivier Beaumont (CEPAGE), Fré́dé́ric Vivien (GRAAL)
- Efficient management of very large volumes of information for data-intensive applications -- Gabriel Antoniu (KERDATA), Jean-Marc Pierson (ASTRE)
- Completing challenging experiments on Grid’5000 -- Lucas Nussbaum (ALGORILLE), Olivier Richard (MESCAL)
- Modeling Large Scale Systems and Validating their Simulators -- Martin Quinson (ALGORILLE), Arnaud Legrand (MESCAL)
- Network metrology and traffic characterization -- Paulo Gonçalves (RESO), Konstantin Avrachenkov (MAESTRO)
Matrix of participation in working groups.
The current list of teams participating to Héméra is:
- ACADIE - Assistance à la Certification d’Applications DIstribuées et Embarquées
- ALGORILLE - Algorithms for the Grid
- APO - Algorithmes Parallèles et Optimisation
- ASAP - As Scalable As Possible: foundations of large scale dynamic distributed systems
- ASCOLA - Aspect and composition languages
- CC-IN2P3 - Equipe de recherche du Centre de Calcul de l'IN2P3
- CEPAGE - Chercher et Essaimer dans les Plates-formes A Grande Echelle
- DOLPHIN - Parallel Cooperative Multi-criteria Optimization
- GRAAL - Algorithms and Scheduling for Distributed Heterogeneous Platforms.
- GRAND-LARGE - Global parallel and distributed computing
- ICPS - Scientific Parallel Computing and Imaging
- KERDATA - Scalable Storage for Clouds and Beyond
- OASIS - Active objects, semantics, Internet and security.
- MAESTRO - Models for the performance analysis and the control of networks
- MESCAL - Middleware efficiently scalable
- MINC - MIcro et Nanosystèmes pour les Communications sans fils
- MRS – Modélisation et contrôle des Réseaux et Signaux
- MYRIADS - Design and Implementation of Autonomous Distributed Systems
- REGAL - Large-Scale Distributed Systems and Applications
- RESO - Protocols and Software for Very High-Performance Network
- RUNTIME - Efficient runtime systems for parallel architectures
- SAGE - Simulations and Algorithms on Grids for Environment
- SEPIA - Distributed Systems, from Architecture to Middleware (formerly ASTRE team)
- ZENITH - Scientific Data Management